EVs the Energy Infrastructureand the needed User Infrastructure

David FarrProject Manager

2

SSE

Our purpose: to provide people with the energy

they need – in a reliable and sustainable way.

31st largest company in the FTSE 100*

£10.5bn market capitalisation*

20,177 employees

UK’s broadest-based energy company

- Electricity generation, transmission, distribution, supply

and services

- Gas production, storage, distribution, supply and services

- Telecoms networks and data storage

* As at 27 August 2010

3

Electric vehicles – the past

Lead Acid or power from overhead lines

4

Electric cars – present day

Lead Acid Batteries

Gee Whiz and Mega city

5

Vehicle 2-seater

Electric motor Output 150 kW/204 hp

Torque 220 Nm

Top speed 150 km/h (limited)

Energy storage Lithium-Ion battery

35 kWh,29 kWh available

Voltage 400 V

Number of battery cells

5,088

Cooling Air cooled dependingon cell temperature

Charging times (230 V)

2.4 hours at 50 A3.8 hours at 32 A10.1 hours at 12 A

Weight 260 kg

Range In real terms up to 180 km

The MINI E UK Field Trial

66

EVs and Generation Capacity

20

25

30

35

40

45

50

55

60

65

00:00 02:00 04:00 06:00 08:00 10:00 12:00 14:00 16:00 18:00 20:00 22:00

Dem

and

GW

Time

Winter Peak Demand 2009

20

25

30

35

40

45

50

55

60

65

00:00 02:00 04:00 06:00 08:00 10:00 12:00 14:00 16:00 18:00 20:00 22:00

Dem

and

GW

Time

Winter Peak Demand 2009

20

25

30

35

40

45

50

55

60

65

00:00 02:00 04:00 06:00 08:00 10:00 12:00 14:00 16:00 18:00 20:00 22:00

Dem

and

GW

Time

Winter Peak Demand 2009

7

Carbon Intensity of Generation

Carbon Intensity

0

100

200

300

400

500

600

00:0

002

:00

04:0

006

:00

08:0

010

:00

12:0

014

:00

16:0

018

:00

20:0

022

:00

Time

g C

O2

per

kW

h

http://www.earth.org.uk/_gridCarbonIntensityGB.html

88

kW

1.5kW

500kW

1.5kW

1.5kW

1.5kW

1.5kW

1.5kW

EVs and Distribution networks

Night time load

9

Energy Density of Batteries vs Petrol

1

10

100

1000

10000

100000

En

erg

y D

ensi

ty W

h/k

g

LiFePO4 LiCoO2 TMO/TiOx Zn-Air Li-S Li-Air Petrol

6000kW in 15seconds

5000kW in three minutes

10

Energy Density of Batteries vs Petrol

1

10

100

1000

10000

100000

En

erg

y D

ensi

ty W

h/k

g

LiFePO4 LiCoO2 TMO/TiOx Zn-Air Li-S Li-Air Petrol

Research

11

Power requirement vs recharge time - 1

0

5

10

15

20

25

30

1 2 3 4 5 6 7 8

Time for 25kWh (hours)

Pow

er R

equi

rem

ent

(kW

)

32 Amp single phase 13

Amp Plug

Three phase 32 Amp

Industrial

12

Power requirement vs recharge time - 2

0

50

100

150

200

250

300

5 10 15 20 25 30 35 40 45 50 55 60

Time for 25kWh (minutes)

Pow

er R

equi

rem

ent

(kW

)

Current “Rapid Charge” Zone

13

Activities while recharging

Increasing cost of chargers

14

Initial Results

1515

Overnight Demand Control - smart metering

16

Key Infrastructure Requirements

Home• Single phase only – 13 or 32 Amp• Smart Meter potential for flexible rate and

demand control

Work/Depot/Factory• Office Car parks and transport hubs• 3 phase supplies for larger vehicles –

busses, lorries• “Smart” to enable energy billing

Public• Public points starting to be rolled out• Access arrangements• Standardisation• Payment methods• Ownership models

17

Key Infrastructure Requirements

Public• Public points starting to be rolled out

How many posts are needed?

Who pays the initial costs?

Where best to locate them

Normal charging @ 3kw (13amp), or fast charging @ 7kw (32amp)?

Public safety and insurance.

18

Key Infrastructure Requirements

Public• Public points starting to be rolled out• Access arrangements

Free parking to encourage electric vehicles?

Free electricity? – Long term how does government replace fuel

duties?

Dedicated spaces – may annoy users of petrol cars

Any other incentives – such as no Congestion Charge in London

19

Key Infrastructure Requirements

Public• Public points starting to be rolled out• Access arrangements• Standardisation

Plug and socket arrangements for fast charging

Mennekes mode 3

20

Key Infrastructure Requirements

Public• Public points starting to be rolled out• Access arrangements• Standardisation• Payment methods

Free electricity included in parking fee or charge each time?

Local or National Schemes

Prepayment card, Credit card

21

Key Infrastructure Requirements

Public• Public points starting to be rolled out• Access arrangements• Standardisation• Payment methods• Ownership models - Interoperability

National government or Local government

Utility companies, Transport Hubs

Parking companies, Supermarkets

Independent franchises

22

Key Infrastructure Requirements

Charging points have the same public demands as public loos:

You would rather not use them, but its good to know they are there.

They need to be in the places that people need them

There has to be just enough - too many is a waste of resources, but not enough is a problem.

If they are closed or not working they are even worse than useless.

Someone has to take ownership and accept the costs even if they are not used – some will be free others will not.

We will accept reasonable costs for their use assuming you have the correct method to access them…….

EVs the Energy Infrastructureand the needed User Infrastructure

David FarrProject Manager